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hcaltb::HcalTBTDCUnpacker Class Reference

#include <HcalTBTDCUnpacker.h>

Classes

struct  Hit
 
struct  WireChamberRecoData
 

Public Member Functions

 HcalTBTDCUnpacker (bool)
 
void setCalib (const std::vector< std::vector< std::string > > &calibLines_)
 
void unpack (const FEDRawData &raw, HcalTBEventPosition &pos, HcalTBTiming &timing) const
 

Private Member Functions

void reconstructTiming (const std::vector< Hit > &hits, HcalTBTiming &timing) const
 
void reconstructWC (const std::vector< Hit > &hits, HcalTBEventPosition &pos) const
 
void unpackHits (const FEDRawData &raw, std::vector< Hit > &hits, HcalTBTiming &timing) const
 

Private Attributes

FILE * dumpObs_
 
bool includeUnmatchedHits_
 
double tdc_convers [161]
 
double tdc_ped [161]
 
struct hcaltb::HcalTBTDCUnpacker::WireChamberRecoData wc_ [PLANECOUNT]
 

Static Private Attributes

static const int PLANECOUNT = 16
 
static const int WC_CHANNELIDS [PLANECOUNT *3]
 

Detailed Description

Author
J. Mans, P. Dudero - Minnesota

Definition at line 12 of file HcalTBTDCUnpacker.h.

Constructor & Destructor Documentation

◆ HcalTBTDCUnpacker()

hcaltb::HcalTBTDCUnpacker::HcalTBTDCUnpacker ( bool  include_unmatched_hits)

Definition at line 30 of file HcalTBTDCUnpacker.cc.

31  : includeUnmatchedHits_(include_unmatched_hits), dumpObs_(nullptr) {
32  // setupWC(); reads it from configuration file
33  // dumpObs_=fopen("dump_obs.csv","w");
34  }

Member Function Documentation

◆ reconstructTiming()

void hcaltb::HcalTBTDCUnpacker::reconstructTiming ( const std::vector< Hit > &  hits,
HcalTBTiming timing 
) const
private

Definition at line 157 of file HcalTBTDCUnpacker.cc.

157  {
158  std::vector<Hit>::const_iterator j;
159  double trigger_time = 0;
160  double ttc_l1a_time = 0;
161  double laser_flash = 0;
162  double qie_phase = 0;
163  double TOF1S_time = 0;
164  double TOF1J_time = 0;
165  double TOF2S_time = 0;
166  double TOF2J_time = 0;
167 
168  std::vector<double> m1hits, m2hits, m3hits, s1hits, s2hits, s3hits, s4hits, bh1hits, bh2hits, bh3hits, bh4hits,
169  beam_coinc;
170 
171  for (j = hits.begin(); j != hits.end(); j++) {
172  switch (j->channel) {
173  case lcTriggerTime:
174  trigger_time = j->time - tdc_ped[lcTriggerTime];
175  break;
176  case lcTTCL1ATime:
177  ttc_l1a_time = j->time - tdc_ped[lcTTCL1ATime];
178  break;
179  case lcBeamCoincidence:
180  beam_coinc.push_back(j->time - tdc_ped[lcBeamCoincidence]);
181  break;
182  case lcLaserFlash:
183  laser_flash = j->time - tdc_ped[lcLaserFlash];
184  break;
185  case lcQIEPhase:
186  qie_phase = j->time - tdc_ped[lcQIEPhase];
187  break;
188  case lcMuon1:
189  m1hits.push_back(j->time - tdc_ped[lcMuon1]);
190  break;
191  case lcMuon2:
192  m2hits.push_back(j->time - tdc_ped[lcMuon2]);
193  break;
194  case lcMuon3:
195  m3hits.push_back(j->time - tdc_ped[lcMuon3]);
196  break;
197  case lcScint1:
198  s1hits.push_back(j->time - tdc_ped[lcScint1]);
199  break;
200  case lcScint2:
201  s2hits.push_back(j->time - tdc_ped[lcScint2]);
202  break;
203  case lcScint3:
204  s3hits.push_back(j->time - tdc_ped[lcScint3]);
205  break;
206  case lcScint4:
207  s4hits.push_back(j->time - tdc_ped[lcScint4]);
208  break;
209  case lcTOF1S:
210  TOF1S_time = j->time - tdc_ped[lcTOF1S];
211  break;
212  case lcTOF1J:
213  TOF1J_time = j->time - tdc_ped[lcTOF1J];
214  break;
215  case lcTOF2S:
216  TOF2S_time = j->time - tdc_ped[lcTOF2S];
217  break;
218  case lcTOF2J:
219  TOF2J_time = j->time - tdc_ped[lcTOF2J];
220  break;
221  case lcBeamHalo1:
222  bh1hits.push_back(j->time - tdc_ped[lcBeamHalo1]);
223  break;
224  case lcBeamHalo2:
225  bh2hits.push_back(j->time - tdc_ped[lcBeamHalo2]);
226  break;
227  case lcBeamHalo3:
228  bh3hits.push_back(j->time - tdc_ped[lcBeamHalo3]);
229  break;
230  case lcBeamHalo4:
231  bh4hits.push_back(j->time - tdc_ped[lcBeamHalo4]);
232  break;
233  default:
234  break;
235  }
236  }
237 
238  timing.setTimes(trigger_time, ttc_l1a_time, laser_flash, qie_phase, TOF1S_time, TOF1J_time, TOF2S_time, TOF2J_time);
239  timing.setHits(
240  m1hits, m2hits, m3hits, s1hits, s2hits, s3hits, s4hits, bh1hits, bh2hits, bh3hits, bh4hits, beam_coinc);
241  }

References hfClusterShapes_cfi::hits, dqmiolumiharvest::j, lcBeamCoincidence, lcBeamHalo1, lcBeamHalo2, lcBeamHalo3, lcBeamHalo4, lcLaserFlash, lcMuon1, lcMuon2, lcMuon3, lcQIEPhase, lcScint1, lcScint2, lcScint3, lcScint4, lcTOF1J, lcTOF1S, lcTOF2J, lcTOF2S, lcTriggerTime, lcTTCL1ATime, tdc_ped, and ecalMatacq_cfi::timing.

Referenced by unpack().

◆ reconstructWC()

void hcaltb::HcalTBTDCUnpacker::reconstructWC ( const std::vector< Hit > &  hits,
HcalTBEventPosition pos 
) const
private

Definition at line 297 of file HcalTBTDCUnpacker.cc.

297  {
298  // process all planes, looping over all hits...
299  const int MAX_HITS = 100;
300  float hits1[MAX_HITS], hits2[MAX_HITS], hitsA[MAX_HITS];
301  int n1, n2, nA, chan1, chan2, chanA;
302 
303  std::vector<double> x;
304 
305  for (int plane = 0; plane < PLANECOUNT; plane++) {
306  n1 = 0;
307  n2 = 0;
308  nA = 0;
309 
310  std::vector<double> plane_hits;
311  double hit_time;
312  hits1[0] = -1000;
313  hits2[0] = -1000;
314  hitsA[0] = -1000;
315  hitsA[1] = -1000;
316 
317  chan1 = WC_CHANNELIDS[plane * 3];
318  chan2 = WC_CHANNELIDS[plane * 3 + 1];
319  chanA = WC_CHANNELIDS[plane * 3 + 2];
320 
321  for (std::vector<Hit>::const_iterator j = hits.begin(); j != hits.end(); j++) {
322  if (j->channel == chan1 && n1 < MAX_HITS) {
323  hits1[n1] = j->time - TDC_OFFSET_CONSTANT;
324  n1++;
325  }
326  if (j->channel == chan2 && n2 < MAX_HITS) {
327  hits2[n2] = j->time - TDC_OFFSET_CONSTANT;
328  n2++;
329  }
330  if (j->channel == chanA && nA < MAX_HITS) {
331  hitsA[nA] = j->time - TDC_OFFSET_CONSTANT;
332  nA++;
333  }
334  }
335 
336  if (n1 != 0 && n2 != 0 && dumpObs_ != nullptr) {
337  fprintf(dumpObs_, "%d,%f,%f,%f,%f\n", plane, hits1[0], hits2[0], hitsA[0], hitsA[1]);
338  fflush(dumpObs_);
339  }
340 
341  // anode-matched hits
342  for (int ii = 0; ii < n1; ii++) {
343  int jmin = -1, lmin = -1;
344  float dsumMin = 99999;
345  for (int jj = 0; jj < n2; jj++) {
346  for (int ll = 0; ll < nA; ll++) {
347  float dsum = fabs(wc_[plane].mean - hits1[ii] - hits2[jj] + 2.0 * hitsA[ll]);
348  if (dsum < (N_SIGMA * wc_[plane].sigma) && dsum < dsumMin) {
349  jmin = jj;
350  lmin = ll;
351  dsumMin = dsum;
352  }
353  }
354  }
355  if (jmin >= 0) {
356  hit_time = wc_[plane].b0 + wc_[plane].b1 * (hits1[ii] - hits2[jmin]);
357  if ((plane % 2) == 0) {
358  plane_hits.push_back(-hit_time);
359  } else {
360  plane_hits.push_back(hit_time);
361  }
362  hits1[ii] = -99999;
363  hits2[jmin] = -99999;
364  hitsA[lmin] = 99999;
365  }
366  }
367 
368  if (includeUnmatchedHits_ || plane > 9) // unmatched hits (all pairs get in here)
369  for (int ii = 0; ii < n1; ii++) {
370  if (hits1[ii] < -99990)
371  continue;
372  for (int jj = 0; jj < n2; jj++) {
373  if (hits2[jj] < -99990)
374  continue;
375  hit_time = wc_[plane].b0 + wc_[plane].b1 * (hits1[ii] - hits2[jj]);
376  if ((plane % 2) == 0) {
377  plane_hits.push_back(-hit_time);
378  } else {
379  plane_hits.push_back(hit_time);
380  }
381  }
382  }
383 
384  if ((plane % 2) == 0)
385  x = plane_hits;
386  else {
387  char chamber = 'A' + plane / 2;
388  ep.setChamberHits(chamber, x, plane_hits);
389  }
390  }
391  }

References hcaltb::HcalTBTDCUnpacker::WireChamberRecoData::b0, hcaltb::HcalTBTDCUnpacker::WireChamberRecoData::b1, relativeConstraints::chamber, dumpObs_, SiStripBadComponentsDQMServiceTemplate_cfg::ep, hfClusterShapes_cfi::hits, cuy::ii, includeUnmatchedHits_, dqmiolumiharvest::j, findQualityFiles::jj, SiStripPI::mean, hcaltb::N_SIGMA, PLANECOUNT, hcaltb::TDC_OFFSET_CONSTANT, wc_, and WC_CHANNELIDS.

Referenced by unpack().

◆ setCalib()

void hcaltb::HcalTBTDCUnpacker::setCalib ( const std::vector< std::vector< std::string > > &  calibLines_)

Definition at line 35 of file HcalTBTDCUnpacker.cc.

35  {
36  for (int i = 0; i < 161; i++) {
37  tdc_ped[i] = 0.;
38  tdc_convers[i] = 1.;
39  }
40  for (unsigned int ii = 0; ii < calibLines_.size(); ii++) {
41  // TDC configuration
42  if (calibLines_[ii][0] == "TDC") {
43  if (calibLines_[ii].size() == 4) {
44  int channel = atoi(calibLines_[ii][1].c_str());
45  tdc_ped[channel] = atof(calibLines_[ii][2].c_str());
46  tdc_convers[channel] = atof(calibLines_[ii][3].c_str());
47  // printf("Got TDC %i ped %f , conversion %f\n",channel, tdc_ped[channel],tdc_convers[channel]);
48  } else {
49  throw cms::Exception("Incomplete configuration")
50  << "Wrong TDC configuration format : expected 3 parameters, got " << calibLines_[ii].size() - 1;
51  }
52  } // End of the TDCs
53 
54  // Wire chambers calibration
55  if (calibLines_[ii][0] == "WC") {
56  if (calibLines_[ii].size() == 6) {
57  int plane = atoi(calibLines_[ii][1].c_str());
58  wc_[plane].b0 = atof(calibLines_[ii][2].c_str());
59  wc_[plane].b1 = atof(calibLines_[ii][3].c_str());
60  wc_[plane].mean = atof(calibLines_[ii][4].c_str());
61  wc_[plane].sigma = atof(calibLines_[ii][5].c_str());
62  // printf("Got WC plane %i b0 %f, b1 %f, mean %f, sigma %f\n",plane,
63  // wc_[plane].b0,wc_[plane].b1,wc_[plane].mean,wc_[plane].sigma);
64  } else {
65  throw cms::Exception("Incomplete configuration")
66  << "Wrong Wire Chamber configuration format : expected 5 parameters, got " << calibLines_[ii].size() - 1;
67  }
68  } // End of the Wire Chambers
69 
70  } // End of the CalibLines
71  }

References hcaltb::HcalTBTDCUnpacker::WireChamberRecoData::b0, hcaltb::HcalTBTDCUnpacker::WireChamberRecoData::b1, Exception, mps_fire::i, cuy::ii, hcaltb::HcalTBTDCUnpacker::WireChamberRecoData::mean, hcaltb::HcalTBTDCUnpacker::WireChamberRecoData::sigma, findQualityFiles::size, tdc_convers, tdc_ped, and wc_.

Referenced by HcalTBObjectUnpacker::HcalTBObjectUnpacker().

◆ unpack()

void hcaltb::HcalTBTDCUnpacker::unpack ( const FEDRawData raw,
HcalTBEventPosition pos,
HcalTBTiming timing 
) const

Definition at line 73 of file HcalTBTDCUnpacker.cc.

73  {
74  std::vector<Hit> hits;
75 
76  unpackHits(raw, hits, timing);
77 
80  }

References hfClusterShapes_cfi::hits, reconstructTiming(), reconstructWC(), ecalMatacq_cfi::timing, and unpackHits().

Referenced by HcalTBObjectUnpacker::produce().

◆ unpackHits()

void hcaltb::HcalTBTDCUnpacker::unpackHits ( const FEDRawData raw,
std::vector< Hit > &  hits,
HcalTBTiming timing 
) const
private

Definition at line 98 of file HcalTBTDCUnpacker.cc.

98  {
99  const ClassicTDCDataFormat* tdc = (const ClassicTDCDataFormat*)raw.data();
100 
101  if (raw.size() < 3 * 8) {
102  throw cms::Exception("Missing Data") << "No data in the TDC block";
103  }
104 
105  const unsigned int* hitbase = nullptr;
106  unsigned int totalhits = 0;
107 
108  // old TDC (767)
109  if (tdc->n_max_hits != 192) {
110  const CombinedTDCQDCDataFormat* qdctdc = (const CombinedTDCQDCDataFormat*)raw.data();
111  hitbase = (const unsigned int*)(qdctdc);
112  hitbase += 6; // header
113  hitbase += qdctdc->n_qdc_hits / 2; // two unsigned short per unsigned long
114  totalhits = qdctdc->n_tdc_hits & 0xFFFF; // mask off high bits
115 
116  // for (unsigned int i=0; i<qdctdc->n_qdc_hits; i++)
117  // printf("QADC: %02d %d\n",i,qdctdc->qdc_values[i]&0xFFF);
118 
119  } else {
120  hitbase = &(tdc->hits[0]);
121  totalhits = tdc->n_hits;
122  }
123 
124  for (unsigned int i = 0; i < totalhits; i++) {
125  Hit h;
126  h.channel = (hitbase[i] & 0x7FC00000) >> 22; // hardcode channel assignment
127  h.time = (hitbase[i] & 0xFFFFF) * tdc_convers[h.channel];
128  hits.push_back(h);
129  // printf("V767: %d %f\n",h.channel,h.time);
130  }
131 
132  // new TDC (V775)
133  int v775[32];
134  for (int i = 0; i < 32; i++)
135  v775[i] = -1;
136  if (tdc->n_max_hits != 192) {
137  const CombinedTDCQDCDataFormat* qdctdc = (const CombinedTDCQDCDataFormat*)raw.data();
138  hitbase = (const unsigned int*)(qdctdc);
139  hitbase += 6; // header
140  hitbase += qdctdc->n_qdc_hits / 2; // two unsigned short per unsigned long
141  hitbase += (qdctdc->n_tdc_hits & 0xFFFF); // same length
142  totalhits = (qdctdc->n_tdc_hits & 0xFFFF0000) >> 16; // mask off high bits
143  for (unsigned int i = 0; i < totalhits; i++) {
144  Hit h;
145  // h.channel=129+i;
146  h.channel = 129 + ((hitbase[i] & 0x3F0000) >> 16);
147  h.time = (hitbase[i] & 0xFFF) * tdc_convers[h.channel];
148  hits.push_back(h);
149  if ((h.channel - 129) < 32)
150  v775[(h.channel - 129)] = (hitbase[i] & 0xFFF);
151  // printf("V775: %d %f\n",h.channel,h.time);
152  }
153  }
154  timing.setV775(v775);
155  }

References FEDRawData::data(), Exception, h, hfClusterShapes_cfi::hits, hcaltb::ClassicTDCDataFormat::hits, mps_fire::i, hcaltb::ClassicTDCDataFormat::n_hits, hcaltb::ClassicTDCDataFormat::n_max_hits, hcaltb::CombinedTDCQDCDataFormat::n_qdc_hits, hcaltb::CombinedTDCQDCDataFormat::n_tdc_hits, FEDRawData::size(), tdc_convers, and ecalMatacq_cfi::timing.

Referenced by unpack().

Member Data Documentation

◆ dumpObs_

FILE* hcaltb::HcalTBTDCUnpacker::dumpObs_
private

Definition at line 38 of file HcalTBTDCUnpacker.h.

Referenced by reconstructWC().

◆ includeUnmatchedHits_

bool hcaltb::HcalTBTDCUnpacker::includeUnmatchedHits_
private

Definition at line 35 of file HcalTBTDCUnpacker.h.

Referenced by reconstructWC().

◆ PLANECOUNT

const int hcaltb::HcalTBTDCUnpacker::PLANECOUNT = 16
staticprivate

Definition at line 29 of file HcalTBTDCUnpacker.h.

Referenced by reconstructWC().

◆ tdc_convers

double hcaltb::HcalTBTDCUnpacker::tdc_convers[161]
private

Definition at line 37 of file HcalTBTDCUnpacker.h.

Referenced by setCalib(), and unpackHits().

◆ tdc_ped

double hcaltb::HcalTBTDCUnpacker::tdc_ped[161]
private

Definition at line 36 of file HcalTBTDCUnpacker.h.

Referenced by reconstructTiming(), and setCalib().

◆ wc_

struct hcaltb::HcalTBTDCUnpacker::WireChamberRecoData hcaltb::HcalTBTDCUnpacker::wc_[PLANECOUNT]
private

Referenced by reconstructWC(), and setCalib().

◆ WC_CHANNELIDS

const int hcaltb::HcalTBTDCUnpacker::WC_CHANNELIDS
staticprivate
Initial value:
= {
12, 13, 14,
10, 11, 14,
22, 23, 24,
20, 21, 24,
32, 33, 34,
30, 31, 34,
101, 102, 104,
107, 108, 110,
113, 114, 116,
97, 98, 99,
42, 43, -1,
44, 60, -1,
40, 41, -1,
45, 61, -1,
52, 53, -1,
54, 62, -1
}

Definition at line 30 of file HcalTBTDCUnpacker.h.

Referenced by reconstructWC().

Hit
Definition: SiPixelLorentzAngle.h:57
mps_fire.i
i
Definition: mps_fire.py:355
lcTOF1J
static const int lcTOF1J
Definition: HcalTBTDCUnpacker.cc:24
hcaltb::HcalTBTDCUnpacker::wc_
struct hcaltb::HcalTBTDCUnpacker::WireChamberRecoData wc_[PLANECOUNT]
hcaltb::HcalTBTDCUnpacker::tdc_convers
double tdc_convers[161]
Definition: HcalTBTDCUnpacker.h:37
SiStripPI::mean
Definition: SiStripPayloadInspectorHelper.h:169
hfClusterShapes_cfi.hits
hits
Definition: hfClusterShapes_cfi.py:5
lcTriggerTime
static const int lcTriggerTime
Definition: HcalTBTDCUnpacker.cc:6
hcaltb::HcalTBTDCUnpacker::WireChamberRecoData::mean
double mean
Definition: HcalTBTDCUnpacker.h:32
h
FWCore Framework interface EventSetupRecordImplementation h
Helper function to determine trigger accepts.
Definition: L1TUtmAlgorithmRcd.h:4
hcaltb::HcalTBTDCUnpacker::PLANECOUNT
static const int PLANECOUNT
Definition: HcalTBTDCUnpacker.h:29
pos
Definition: PixelAliasList.h:18
lcMuon3
static const int lcMuon3
Definition: HcalTBTDCUnpacker.cc:14
CombinedTDCQDCDataFormat
Definition: HcalLaserUnpacker.cc:9
lcMuon1
static const int lcMuon1
Definition: HcalTBTDCUnpacker.cc:12
lcQIEPhase
static const int lcQIEPhase
Definition: HcalTBTDCUnpacker.cc:10
hcaltb::HcalTBTDCUnpacker::WireChamberRecoData::sigma
double sigma
Definition: HcalTBTDCUnpacker.h:32
lcBeamHalo3
static const int lcBeamHalo3
Definition: HcalTBTDCUnpacker.cc:21
DDAxes::x
hcaltb::HcalTBTDCUnpacker::WC_CHANNELIDS
static const int WC_CHANNELIDS[PLANECOUNT *3]
Definition: HcalTBTDCUnpacker.h:30
hcaltb::HcalTBTDCUnpacker::tdc_ped
double tdc_ped[161]
Definition: HcalTBTDCUnpacker.h:36
FEDRawData::data
const unsigned char * data() const
Return a const pointer to the beginning of the data buffer.
Definition: FEDRawData.cc:24
lcMuon2
static const int lcMuon2
Definition: HcalTBTDCUnpacker.cc:13
lcTOF2J
static const int lcTOF2J
Definition: HcalTBTDCUnpacker.cc:26
lcScint2
static const int lcScint2
Definition: HcalTBTDCUnpacker.cc:16
CombinedTDCQDCDataFormat::n_qdc_hits
unsigned int n_qdc_hits
Definition: HcalLaserUnpacker.cc:11
hcaltb::HcalTBTDCUnpacker::reconstructWC
void reconstructWC(const std::vector< Hit > &hits, HcalTBEventPosition &pos) const
Definition: HcalTBTDCUnpacker.cc:297
h
hcaltb::HcalTBTDCUnpacker::unpackHits
void unpackHits(const FEDRawData &raw, std::vector< Hit > &hits, HcalTBTiming &timing) const
Definition: HcalTBTDCUnpacker.cc:98
hcaltb::HcalTBTDCUnpacker::reconstructTiming
void reconstructTiming(const std::vector< Hit > &hits, HcalTBTiming &timing) const
Definition: HcalTBTDCUnpacker.cc:157
hcaltb::HcalTBTDCUnpacker::includeUnmatchedHits_
bool includeUnmatchedHits_
Definition: HcalTBTDCUnpacker.h:35
lcBeamHalo4
static const int lcBeamHalo4
Definition: HcalTBTDCUnpacker.cc:22
hcaltb::HcalTBTDCUnpacker::dumpObs_
FILE * dumpObs_
Definition: HcalTBTDCUnpacker.h:38
lcTOF1S
static const int lcTOF1S
Definition: HcalTBTDCUnpacker.cc:23
lcTOF2S
static const int lcTOF2S
Definition: HcalTBTDCUnpacker.cc:25
lcScint3
static const int lcScint3
Definition: HcalTBTDCUnpacker.cc:17
lcBeamCoincidence
static const int lcBeamCoincidence
Definition: HcalTBTDCUnpacker.cc:8
StopReason::MAX_HITS
hcaltb::HcalTBTDCUnpacker::WireChamberRecoData::b0
double b0
Definition: HcalTBTDCUnpacker.h:32
FEDRawData::size
size_t size() const
Lenght of the data buffer in bytes.
Definition: FEDRawData.h:45
lcScint1
static const int lcScint1
Definition: HcalTBTDCUnpacker.cc:15
ecalMatacq_cfi.timing
timing
Definition: ecalMatacq_cfi.py:26
Exception
Definition: hltDiff.cc:246
findQualityFiles.jj
string jj
Definition: findQualityFiles.py:188
lcTTCL1ATime
static const int lcTTCL1ATime
Definition: HcalTBTDCUnpacker.cc:7
relativeConstraints.chamber
chamber
Definition: relativeConstraints.py:53
lcScint4
static const int lcScint4
Definition: HcalTBTDCUnpacker.cc:18
hcaltb::TDC_OFFSET_CONSTANT
static const double TDC_OFFSET_CONSTANT
Definition: HcalTBTDCUnpacker.cc:262
lcLaserFlash
static const int lcLaserFlash
Definition: HcalTBTDCUnpacker.cc:9
lcBeamHalo2
static const int lcBeamHalo2
Definition: HcalTBTDCUnpacker.cc:20
hcaltb::HcalTBTDCUnpacker::WireChamberRecoData::b1
double b1
Definition: HcalTBTDCUnpacker.h:32
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unsigned int n_tdc_hits
Definition: HcalLaserUnpacker.cc:12
dqmiolumiharvest.j
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Definition: dqmiolumiharvest.py:66
hcaltb::N_SIGMA
static const double N_SIGMA
Definition: HcalTBTDCUnpacker.cc:263
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Definition: SiStripBadComponentsDQMServiceTemplate_cfg.py:86
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Definition: cuy.py:590
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Write out results.
Definition: findQualityFiles.py:443
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Definition: HcalTBTDCUnpacker.cc:19